CN1984058B - Method and system for updating high-speed up-link group access service dispatch - Google Patents

Abstract

The invention relates to mobile communication technology, discloses a high-speed ascending grouped cut-in service dispatching update method and system, and enables the user terminal transmit data more accurately according to the dispatching results of the network side. In the invention, update the SG variable o a SG value of TTI in the current HARQ process at user terminal when received RG'hold '. In addition to maintaining a shared variable of SG for user terminals in all HARQ process, users can also individually maintain a SG variable for user terminals in every HARQ process. For this signally maintain SG variables manner, maintain and update the current HARQ process when received RG signals according to the instructions in RG signals, unified update SG variables in every HARQ process according to the instructions in AG signals in the receiving of AG signals.

Description

Service dispatch update method and system thereof that high speed uplink packet inserts

Technical field

The present invention relates to mobile communication technology, particularly the service dispatch of high speed uplink packet access.

Background technology

Third generation partner program (3rd Generation Partnership Project, be called for short " 3GPP ") promoted the standardization effort of 3G technology as the vital tissue of moving communicating field, the carrying of uplink and downlink business all is based on dedicated channel in its early stage protocol version, wherein, the message transmission rate that uplink and downlink can reach in 99 editions (Release 99, are called for short " R99 ") is 384 kilobits per seconds (Kbps).

Along with the development of mobile communication technology, 3G technology is also in constantly development evolution.Manyly need system that higher transmission rate and shorter time delay are provided to flow and data service such as video, Streaming Media and the download etc. of delaying having relatively high expectations, high speed downlink packet inserts (High Speed Downlink Packet Access, be called for short " HSDPA ") and high speed uplink packet to insert (High Speed Uplink Packet Access, abbreviation " HSUPA ") be exactly the important evolution of 3G technology.Be different from the scheduling of packet in the R99 version and retransmit by radio network controller (Radio Network Controller, be called for short " RNC ") control, among HSDPA and the HSUPA, the scheduling of packet and re-transmission etc. are by base stations control, this control faster better adaptive channel changes, reduce propagation delay time, increase data throughout.HSDPA and HSUPA can provide the peak rate up to 14.4 MBPSs (Mbps) and 5.76Mbps respectively, and the availability of frequency spectrum also is greatly improved.

Wherein, HSUPA has been incorporated in 2004 in the version of 3GPP the 6th edition (Release 6, are called for short " R6 ") as the high speed uplink data packet access technique.Be similar to HSDPA, HSUPA adopts shorter Transmission Time Interval (Transmission Timing Interval, be called for short " TTI ") and frame length (2ms or 10ms) to realize quick self-adapted control, use the automatic repeat requests of mixing (Hybrid Auto Repeat reQuest in physical layer, be called for short " HARQ ") and, improved up spectrum efficiency based on the fast uplink dispatching technique of base station.

In order to realize subscriber equipment (User Equipment, abbreviation " UE ") high-efficiency transfer of upstream data, HSUPA has increased two uplink physical channels and three down physical channels newly, they are respectively up enhancing special physical data transmission channel (the Enhanced-DCHDedicated Physical Data Channel that is used for carrying user data, be called for short " E-DPDCH "), be used to transmit accompanied by physical layer signaling, for the E-DPDCH demodulation provides the up enhancing Dedicated Physical Control Channel of following signaling (Enhanced-DCH Dedicated Physical Control Channel, be called for short " E-DPCCH "), be used to control absolute grant channel (the Enhanced-DCH Absolute GrantChannel of the uplink speed of UE, be called for short " E-AGCH ") and relative authorization channel (Enhanced-DCH Relative GrantChannel, be called for short " E-RGCH "), and be used to indicate the whether correct retransmission indicating chanel (E-DCH Hybrid ARQ Indicator Channel is called for short " E-HICH ") of up process data transmission.Wherein, E-AGCH only exists in service wireless connections sub-district, is used to indicate the up peak transfer rate that can transmit of UE, and the frequency ratio of adjusting is lower; E-RGCH can exist in service wireless connections and non-service wireless connections sub-district, is used to indicate UE to adjust uplink speed by a fixed step size, and the frequency ratio of adjustment is higher, reaches as high as every TTI once.Among the HSUPA, UE knows by E-HICH whether data are correctly received, if incorrect, will initiate to retransmit, otherwise send new data.Except physical layer increases channel, in order to cooperate HSUPA, also in the MAC layer, introduce MAC-e (e refers to strengthen) and two sublayers of MAC-es, to support HARQ and fast dispatch, MAC-e and MAC-es are between physical layer and the MAC-d.The protocol architecture figure of HSUPA as shown in Figure 1.

All the time, how according to the current utilization of resources situation of network side the service rate of UE to be dispatched is the important topic that 3GPP studies for a long period of time, in R99/R4 (Release 4)/R5 (Release 5), uplink scheduling and data rate control are all finished in RNC, and in R6, for HSUPA, its uplink scheduling and data rate control are all realized by the base station.Compare with controlling in RNC with scheduling, the control of base station and scheduling can be reacted to the variation of ascending load quickly, thereby obtain higher cell throughout and bigger coverage.

In existing HSUPA, the base station issues absolute scheduling (Absolute Grant by AGCH and RGCH to its UE that has under its command, be called for short " AG ") or scheduling relatively (Relative Grant is called for short " RG ") order, the service rate of UE in its coverage is controlled and dispatched.UE carries out corresponding speed lifting or reduction according to the content of dispatching command behind the dispatching command that receives from the base station, how to make UE accurately and timely respond the rate scheduling of base station, is one of key point that guarantees the HSUPA performance.

Specifically, according to agreement 3GPP, among 25.321 li 11.8.1.3 of TS to service dispatch (the Serving Grant of UE, abbreviation " SG ") description of value renewal, when UE receives RG from the base station, whether the HARQ process of at first judging this UE is what activate, and its " Primary_Grant_Available " equals " very ", and its SG value is not equal to " Zero_Grant ", and the AG timer is overtime, and in the previous TTI of this HARQ process scheduled transmission is arranged, if satisfy above condition, then UE adjusts the transmission rate of HARQ process according to the RG signaling.Because same UE comprises a plurality of HARQ processes, the shared same SG variable of these HARQ processes, on different TTI, move, therefore, when the RG signaling that receives was " up (rising) ", the current value of SG variable that UE will share was updated to the value greater than HARQ process employed SG value in a last TTI of current operation; When the RG signaling that receives when " down (decline) ", UE is updated to the value of current SG variable less than the HARQ process of the current operation value in a last employed SG value of TTI; When the RG signaling that receives was " hold (maintenance) ", UE did not do any processing to the value of current SG variable.The current HARQ process of UE is transmitted data according to current SG value.Such as same UE comprises 8 HARQ processes, is respectively process 0-process 7, and the shared same SG variable of different HARQ processes transmits data in different TTI.Process 0 is transmitted data in first TTI, process 1 is transmitted data in second TTI, by that analogy, process 7 is transmitted data in the 8th TTI after, restarts to transmit data by process 0 in the 9th TTI, moves in circles with this.In order to adjust the transmission rate of different processes, UE receives a RG signaling at each TTI, if the RG signaling of receiving is " up ", suppose that the RG signaling that UE receives in the 9th TTI is " up ", then UE is updated to the value of current SG variable greater than the process 0 of the current operation value of employed SG value in the TTI (being first TTI) thereon, as in first TTI, the SG value that process 0 is used is 5.6kb/s, then in the 9th TTI, the value of SG variable is updated to 7.9kb/s, the SG value that the SG value that process 0 is used is used in a last TTI greater than this process in the 9th TTI; Equally, if the RG that UE receives in the 9th TTI order is " down ", then in the 9th TTI, the value of SG variable is updated to value less than 5.6kb/s, as 4.6kb/s, the SG value that the SG value that makes process 0 use in the 9th TTI is used in a last TTI (being first TTI) less than this process; If the RG that UE receives in the 9th TTI order is not then done any renewal to the value of current SG variable for " hold ".

In actual applications, there is following problem in such scheme: in the prior art, UE may transmit data according to the scheduling result of network side RG signaling exactly.

Cause the main cause of this situation to be, in the prior art, when network side wishes that certain HARQ process keeps the transmission rate of this process in a last TTI, send the signaling of RG ' hold ' to the UE of this HARQ process, at above-mentioned case, when network side wishes that process 0 keeps its transmission rate in first TTI in the 9th TTI, send the signaling of RG ' hold ' to its UE, after UE receives this RG signaling, the value of current SG is not done any processing, yet, because a plurality of HARQ processes shared same SG in different TTI of same UE, therefore the value of SG variable is in the last TTI in the current TTI, promptly in the 8th TTI, and process 7 employed SG values, but not process 0 is in its operation in TTI, be employed SG value in first TTI, as seen do not reach network side and send the desired effect of this RG signaling, and make UE do the adjustment that makes mistake to the transmission rate of this HARQ process.When especially SG value of using when the HARQ process in the last TTI and the former SG value difference that should use of this HARQ process are very not big, the scheduling of mistake will make more reasonably allocation of network resources of network side.

Summary of the invention

In view of this, main purpose of the present invention is to provide a kind of service dispatch update method and system thereof of high speed uplink packet access, makes user terminal to transmit data according to the scheduling result of network side more accurately.

For achieving the above object, the invention provides the service dispatch update method that a kind of high speed uplink packet inserts, comprise following steps:

User terminal is when the relative dispatch that receives from network side, if original data rate is kept in this signaling indication, the value of then current service dispatch variable is set to current hybrid automatic repeat request process in the employed service dispatch value of a last Transmission Time Interval.

Wherein, described user terminal is only safeguarded a service dispatch variable, is shared by each hybrid automatic repeat request process.

In this external described method, described user terminal is that each hybrid automatic repeat request process is safeguarded a service dispatch variable separately.

In this external described method, also comprise following steps:

When described user terminal when receiving relative dispatch, this user terminal upgrades the value of the service dispatch variable of current hybrid automatic repeat request process according to this relative dispatch;

When described user terminal when receiving absolute dispatch, this user terminal upgrades the value of the service dispatch variable of each hybrid automatic repeat request process according to this absolute dispatch.

The service dispatch update system that the present invention also provides a kind of high speed uplink packet to insert comprises at least one user terminal and network side, also comprises in the described user terminal:

Transceiver module is used for and the mutual signaling of described network side;

Update module is used to upgrade the value of the current service dispatch variable of user terminal;

And judge module, be used for when described transceiver module receives relative dispatch, judge whether this signaling indicates and keep original data rate, if then notify the value of the current service dispatch variable of described update module to be set to current hybrid automatic repeat request process in the employed service dispatch value of a last Transmission Time Interval.

Wherein, described user terminal is only safeguarded a service dispatch variable, is shared by each hybrid automatic repeat request process.

In this external described system, described user terminal is that each hybrid automatic repeat request process is safeguarded a service dispatch value separately.

In this external described system, described judge module also is used for:

When described transceiver module receives relative dispatch, indicate described update module to upgrade the value of the service dispatch variable of current hybrid automatic repeat request process according to this relative dispatch;

When described transceiver module receives absolute dispatch, indicate described update module to upgrade the value of the service dispatch variable of each hybrid automatic repeat request process according to this absolute dispatch.

By relatively finding that the main distinction of technical scheme of the present invention and prior art is that when receiving RG ' hold ', also the SG variable to user terminal upgrades, and is updated to current HARQ process in the SG of last TTI value.Thereby guaranteed that the current HARQ process of user terminal can be exactly sends data according to the scheduling result of network side in current TTI, make desired consistent of renewal and the network side of user terminal SG variable-value, embody of the influence of the dispatching command of network side, improved the performance of HSUPA system in subscriber terminal side.

Except being shared SG variables manner of all HARQ processes maintenances of user terminal, can also be that each HARQ process of user terminal is safeguarded a SG variable separately.For this independent SG variables manner of safeguarding, when receiving the RG signaling, according to the indication in the RG signaling value of the SG variable of current HARQ process is carried out maintenance update, when receiving the AG signaling, the value of the SG variable of each HARQ process is carried out unified renewal according to the indication in the AG signaling.

Description of drawings

Fig. 1 is the protocol architecture schematic diagram of HSUPA in the prior art;

Fig. 2 is the service dispatch update method flow chart according to the HSUPA of first embodiment of the invention;

Fig. 3 is the service dispatch update method flow chart according to the HSUPA of second embodiment of the invention;

Fig. 4 is the service dispatch update system structure chart according to the HSUPA of third embodiment of the invention.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, the present invention is described in further detail below in conjunction with accompanying drawing.

Core of the present invention is, UE is ' hold ' time receiving the RG signaling, also need the value of current SG variable is upgraded, UE is updated to current HARQ process in the employed SG value of a last TTI with the value of current SG variable, makes the current HARQ process of this UE can be exactly send data according to the scheduling result of network side in current TTI.

Describe according to the service dispatch update method of inventive principle below first embodiment of the invention HSUPA.

As shown in Figure 2, in step 210, UE receives the dispatch from network side, then enter step 220, UE judges that this dispatch is AG signaling or RG signaling, is the AG signaling if UE receives, then enter step 230,, then enter step 240 if instead UE receives is the RG signaling.

In step 230, UE is according to the value of the pairing SG variable of each HARQ process of AG signaling update that receives.Specifically, for fear of producing unexpected mistake because of the shared SG variable of a plurality of HARQ processes of same UE, in the present embodiment, UE is that each HARQ process is safeguarded a SG variable separately, be that a plurality of HARQ processes of same UE have SG variable separately respectively, UE according to the value of the SG variable of this each HARQ process of AG signaling update, all is updated to the value of the SG variable of each HARQ process the designated value of this AG signaling when the AG signaling of receiving from network side.

When UE receives the RG signaling, enter step 240, UE further judges the indication of this RG signaling is ' up ', ' hold ', or ' down '.Raise speed ' up ' if this RG signaling is indication, then enter step 250, UE raises on its original basis according to the value of existing protocol with the SG variable of current HARQ process; If this RG signaling is indication downward modulation speed ' down ', then enter step 260, UE reduces the value of the SG variable of current HARQ process according to existing protocol on its original basis; Keep original speed ' hold ' if this RG signaling is indication, then enter step 270, UE is updated to this HARQ process employed SG value in a last TTI with the value of the SG variable of current HARQ process.No matter the value to the SG variable of current HARQ process raises, keeps or reduce, and the current HARQ process of UE all sends data according to the SG value after the renewal in current TTI.

Present embodiment is safeguarded a SG variable that uses separately by UE respectively for each HARQ process, effectively avoided UE to be ' hold ' time receiving the RG signaling, current HARQ process sends data according to the employed SG value of other HARQ processes in the last TTI mistakenly in current TTI, guaranteed that the current HARQ process of UE can be exactly sends data according to the scheduling result of network side in current TTI, make desired consistent of renewal and the network side of SG variable of UE, embody of the influence of the dispatching command of network side, improved the performance of HSUPA system in the UE side.

The service dispatch update method and first execution mode of second embodiment of the invention HSUPA are roughly the same, its difference only is, in first execution mode, a plurality of HARQ processes of same UE have SG variable separately respectively, UE safeguards separately the SG variable of each HARQ process, and in the present embodiment, for mutually warm with prior art better, the shared same SG variable of a plurality of HARQ processes of same UE, UE only needs a SG variable is safeguarded, according to the signaling of network side, this SG variable is updated to different values in different TTI, make each HARQ process in its corresponding TTI, can use the SG value of network side expection.

Specifically, as shown in Figure 3, in step 310, UE receives the dispatch from network side, then enters step 320, and UE judges that this dispatch is AG signaling or RG signaling, if what UE received is the AG signaling, then enter step 330,, then enter step 340 if instead UE receives is the RG signaling.

Because what UE received is the AG signaling, therefore in step 330, the SG value that UE is current according to this AG signaling update is about to getting of current SG variable and is updated to designated value in this AG signaling.

When UE receives the RG signaling, enter step 340, UE further judges the indication of this RG signaling is ' up ', ' hold ', or ' down '.Raise speed ' up ' if this RG signaling is indication, then enter step 350, UE raises the current value of SG variable according to existing protocol, and concrete method for modulating up is same as the prior art, does not repeat them here; If this RG signaling is indication downward modulation speed ' down ', then enter step 360, UE is according to the current value of existing protocol downward modulation SG variable, and its decreasing method is same as the prior art equally; Keep original speed ' hold ' if this RG signaling is indication, then enter step 370, the UE value that the SG variable is current is updated to current HARQ process employed SG value in a last TTI.For example, same UE comprises 8 HARQ processes, is respectively the shared same SG variable of 7, seven HARQ processes of process 0-process, transmits data in different TTI.Process 0 SG value according to this TTI correspondence in first TTI is transmitted data, process 1 SG value according to this TTI correspondence in second TTI is transmitted data, by that analogy, and process 7 is transmitted data in the 8th TTI after, restart to move in circles with this by process 0 SG value transmission data according to this TTI correspondence in the 9th TTI.Suppose that the RG signaling that UE receives in the 9th TTI is " hold ", then UE is updated to the process 0 moved in this TTI employed SG value in TTI thereon with the value of SG variable in this TTI, promptly be updated to process 0 employed SG value in first TTI, thereby avoided UE mistakenly current SG value to be kept the SG value of other HARQ processes in the last TTI, guaranteed that the current HARQ process of UE can be exactly sends data according to the scheduling result of network side in current TTI.

The service dispatch update system of third embodiment of the invention HSUPA, as shown in Figure 4, comprise the transceiver module that is used for the mutual signaling of network side, be used to upgrade the update module of the value of the current SG variable of UE, and be used to judge whether the signaling that receives indicates the judge module of keeping original data rate.

In native system, UE is that each HARQ process is safeguarded a SG variable separately, specifically, transceiver module receives the dispatch from network side, when this dispatch is the RG signaling, judge by judge module whether it indicates and keep original data rate, if then the update notifications module is updated to this process employed SG value in a last TTI with the value of the SG variable of current HARQ process.When the dispatch that receives when transceiver module was the AG signaling, the indication update module was according to the value of the SG variable of this each HARQ process of AG signaling update.Because being each HARQ process, UE safeguards a SG variable that uses separately, effectively avoided UE to be ' hold ' time receiving the RG signaling, current HARQ process sends data according to the employed SG value of other HARQ processes in the last TTI mistakenly in current TTI, guaranteed that the current HARQ process of UE can be exactly sends data according to the scheduling result of network side in current TTI, make desired consistent of renewal and the network side of SG variable-value among the UE, embody of the influence of the dispatching command of network side, improved the performance of HSUPA system in the UE side.

Though pass through with reference to some of the preferred embodiment of the invention, the present invention is illustrated and describes, but those of ordinary skill in the art should be understood that and can do various changes to it in the form and details, and without departing from the spirit and scope of the present invention.

Claims (8)

1. the service dispatch update method that high speed uplink packet inserts is characterized in that, comprises following steps:

User terminal is when the relative dispatch that receives from network side, if original data rate is kept in this signaling indication, the value of then current service dispatch variable is set to current hybrid automatic repeat request process in the employed service dispatch value of a last Transmission Time Interval.

2. the service dispatch update method that high speed uplink packet according to claim 1 inserts is characterized in that described user terminal is only safeguarded a service dispatch variable, is shared by each hybrid automatic repeat request process.

3. the service dispatch update method that high speed uplink packet according to claim 1 inserts is characterized in that, described user terminal is that each hybrid automatic repeat request process is safeguarded a service dispatch variable separately.

4. the service dispatch update method that high speed uplink packet according to claim 3 inserts is characterized in that, also comprises following steps:

When described user terminal when receiving relative dispatch, this user terminal upgrades the value of the service dispatch variable of current hybrid automatic repeat request process according to this relative dispatch;

When described user terminal when receiving absolute dispatch, this user terminal upgrades the value of the service dispatch variable of each hybrid automatic repeat request process according to this absolute dispatch.

5. the service dispatch update system that high speed uplink packet inserts comprises at least one user terminal and network side, it is characterized in that, also comprises in the described user terminal:

Transceiver module is used for and the mutual signaling of described network side;

Update module is used to upgrade the value of the current service dispatch variable of user terminal;

And judge module, be used for when described transceiver module receives relative dispatch, judge whether this signaling indicates and keep original data rate, if then notify the value of the current service dispatch variable of described update module to be set to current hybrid automatic repeat request process in the employed service dispatch value of a last Transmission Time Interval.

6. the service dispatch update system that high speed uplink packet according to claim 5 inserts is characterized in that described user terminal is only safeguarded a service dispatch variable, is shared by each hybrid automatic repeat request process.

7. the service dispatch update system that high speed uplink packet according to claim 5 inserts is characterized in that, described user terminal is that each hybrid automatic repeat request process is safeguarded a service dispatch variable separately.

8. the service dispatch update system that high speed uplink packet according to claim 7 inserts is characterized in that described judge module also is used for:

When described transceiver module receives relative dispatch, indicate described update module to upgrade the value of the service dispatch variable of current hybrid automatic repeat request process according to this relative dispatch;

When described transceiver module receives the signaling of absolute scheduling, indicate described update module to upgrade the value of the service dispatch variable of each hybrid automatic repeat request process according to this absolute dispatch.

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